DE4015048A1 - DEVICE FOR CONTROLLING THE IMAGE PATTERN OF A COMPUTER CONTROLLED TELEVISION - Google Patents

Description

The present invention relates generally to a computer controlled television (hereinafter referred to as CCTV) and in particular with a device for controlling the image pattern of a CCTV tels of a video camera, whereby on a CRT (cathode-ray tube, Ka cathode ray tube) of the CCTV displayed pattern over the control direction to the CCTV is supplied by an internal or external influence distorts (poorly adjusted) image patterns equalize.

A known CCTV includes a microcomputer to do just that Geometry matching characteristics of that shown on the CRT Image pattern and its tone to control. In a CCTV, a hori zontally or vertically distorted (shifted) image pattern and a badly balanced image pattern according to a previously specified a condition can be set.

If, according to conventional CCTV, the parameters for Control horizontal, vertical, and match characteristics  it is impractical to set the previously defined parameters fit. In addition, it is difficult to confirm that the system above characteristics according to the predetermined parameters tern controls. Therefore, there is a need for automatic control the parameter.

It is therefore an object of the present invention, a pre direction for automatically controlling the geometry characteristics of the Image pattern of a CCTV by tracing the instantaneous on the To provide the screen of the CCTV displayed image pattern.

It is another object of the present invention, a pre Direction for automatically controlling the sound characteristics of the CCTV by returning the sound signal.

According to an aspect of the present invention summarizes a device for controlling the geometry characteristics of a Image pattern in a CCTV: a pattern generator for generating a Image pattern with a synchronous signal for the CCTV; a video camera to record the image pattern and to convert the image pattern to a composite electrical video signal; an RGB matrix for Separate the composite video signal into red, green and blue Components; first, second and third ADCs (analog / digital converter) for Converting the red, green and blue components into red, green and blue digital signals; a pattern recognizer to provide of the synchronous signal generated by the pattern generator, the synchronous signal with the first, second and third ADC ver is bound, creating the first, second and third ADC with the pattern  generator can be synchronized; a pattern recognizer for comparison the output of the first, second and third ACDs with one previously Check the CCTV programmed reference and generate Pa parameters for the horizontal, vertical and adjustment characteristics, respectively according to the comparison results; and a control computer to compare the parameters for the horizontal, vertical, respectively and matching characteristics with a reference parameter, whereby Control data are generated according to the comparison result, the control data being fed to the CCTV to avoid distortion to compensate for the pattern.

For a better understanding of the invention and to show how this can be carried out is now exemplified on the Drawings referenced.

Fig. 1 shows a block diagram of an apparatus for automatically controlling the image pattern of a CCTV according to the present invention. The

Figs. 2A to 2C show an example of balanced bad image pattern for illustrating the features and advantages of the invention.

A preferred embodiment according to the present invention dung is hereinafter described in detail with reference to the Drawings described by way of example.

Referring primarily to Fig. 1, the inventive device for controlling the geometric characteristics of the image pattern comprises a general CCTV device 12 in which a deflection circuit (not shown) horizontally and vertically deflects the image pattern displayed on the CRT in accordance with the horizontal and vertical deflection control signal controls. The CCTV device 12 shows an image on the CRT, the geometric characteristics of which can be controlled by the deflection circuit, as previously programmed by the user. The image pattern displayed on the CRT of the CCTV device 12 is recorded by a video camera 16 and converted into an electrical signal. The converted electrical signal is a composite video signal. Then, the composite video signal is applied to an RGB (red, green, blue) matrix 18 for separating the above composite video signal from the video camera 16 into the red, green and blue components.

The separated R, G, B components are each a first ADC (analog / digital converter) 20 for converting the R component of the analog composite video signal into the R component of a digital video signal, a second ADC (analog / digital converter) ) 22 for converting the G component of the analog composite video signal into the G component of a digital video signal, and a third ADC (analog / digital converter) 24 for converting the B component of the analog composite video signal into the B component of a digital video signal provided.

At the first, second and third ADCs 20, 22, 24 , the picture window synchronization signals from a synchronization signal supply part 26 are applied, whereby the digital video output signals of the first to third ADCs 20, 22, 24 are synchronized with the above-mentioned synchronization signals. The outputs of the first to third ADCs 20, 22, 24 are then applied to a pattern recognition part 28 to be compared with a reference value. The reference value is pre-set (programmed) by the user as desired. From the result of the comparison, the pattern recognition part 28 recognizes the geometrical characteristics of the image pattern on the CRT screen to generate the corresponding parameters of the horizontal, vertical and matching characteristics by detecting the respective R, G, B component differences.

The control computer 30 compares the geometric characteristics of the pattern recognition part 28 with the geometric reference characteristics in order to generate corresponding control data. The control data output of the control computer 30 is applied via a bus line to an I ² C bus interface 32 , via which the control data are converted appropriately for the I ² C bus line S ₆ .

Referring to Figs. 2A to 2C is an illustration of an image pattern will be described, which is shifted in Fig. 2A to the left side of the CRT screen of the CCTV implement 12. A further description of an image pattern that is horizontally incorrectly arranged is given in FIG . In addition, Figure 2C shows. An image pattern whose vertical Bildcha rakteristik is reduced.

When the pattern generator 14 of the image pattern signal S applies in operation of the embodiment of the CCTV unit 12 _71, the A pattern input image is displayed on the CRT screen of the CCTV device 12th Opposite the CRT screen of the CCTV device 12 , the video camera 16 captures the image of the image pattern shown on the CRT screen and converts the image signal into a composite video signal which is applied to the RGB matrix 18 . The composite video signal applied to the RGB matrix 18 is separated into the color signals of the R, G, B components and applied to the first to third ADCs 20, 22, 24 . The R component is applied to the first ADC 20 , the G component is applied to the second ADC 22 , and the third component is applied to the third ADC 24 .

The first to third ADC 20, 22, 24 sample the R, G, B components with a predetermined sampling frequency (clock; CLK) to convert the color signals into digital video signals, the converted digital video signal with the provided by the synchronization supply part 26 image window synchronization signal is synchronized, whereby the synchronized digital video signal for the pattern recognition part 28 is generated. In this way, the first to third ADCs 20, 22, 24 generate the parameters of the horizontal, vertical and trimming characteristics for the R, G, B components.

On the other hand, the synchronization signal supply part 26 delays the synchronization signal of the image pattern generated by the pattern generator 14 by a predetermined time and controls the pulse width of the synchronization signal to provide the synchronization signal for the first to third ADCs 20, 22, 24 . In this case, the delay is necessary not only to fill in the time for RGB separation by the first through third ADCs 20, 22, 24 , but also to synchronize the ADCs with the pattern generator 14 .

In the meantime, the pattern recognition part 28 compares the horizontal, vertical, and matching characteristics for the respective R, G, B components generated by the first through third ADCs 20, 22, 24 with the reference channels previously programmed as desired characteristics to recognize (detect) the distortion characteristics and to generate for the control computer 30 the parameters corresponding to the distortion characteristics.

For example, when the pattern generator 14 generates an image pattern for the CCTV device 12 , the image pattern is shown on the CRT screen of the CCTV 12 . On this occasion, if the image pattern shown on the CRT screen has poor horizontal, vertical and alignment characteristics due to misadjustment of the CCTV device 12 , the image pattern is distorted as shown in Figs. 2A-2C.

Accordingly, the R, G, B components digitized by the first to third ADCs are distorted, and the distorted components are supplied to the pattern recognition part 28 , where they are compared with the reference values programmed by the user.

For the image pattern of Fig. 2A, the pattern recognition part 28 adds or subtracts (ie sets) the parameters corresponding to the horizontally distorted image pattern caused by the poor horizontal characteristic. In the image pattern of FIG. 2B, the parameter corresponding to the matching characteristic is set by the pattern recognition part 28 to compensate for the poorly balanced image. In particular, the central area of the image of FIG. 2B is compressed while the left and right areas of the image are spread. Finally, in the image pattern of Fig. 2C, the parameter corresponding to the vertical characteristic is set so that the image is vertically compressed.

In other words, the pattern recognition part 28 compares the parameters of the horizontal, vertical and matching characteristics for each of the R, G, B components, which are the feedback signals for detecting geometric distortions of the image pattern on the CRT, with the reference values to provide appropriate parameters for the control computer 30 .

The control computer 30 thus determines the difference between the input distortion parameters and the reference parameters and provides the I ² C bus interface 32 with deflection compensation data. The I ² C bus interface 32 converts the deflection compensation data into I ² C bus data in order to make them available to the CCTV device 12 as control data.

As a result, if the image pattern displayed on the CRT screen of the CCTV device 12 has narrow, suppressed horizontal and vertical characteristics, the control computer 30 controls the CCTV device via the I ² C bus interface 32 to fill (compress) the compressed characteristics ) by applying the control signal to the deflection circuit.

As described above, the invention recognizes the geometric Characteristics of that shown on the CRT screen of the CCTV Image pattern. The recognized geometric characteristics are compared with the Comparing reference characteristics using a control computer, to provide deflection compensation data for the control of the deflection circuit  receive. Therefore, the invention can be used in the manufacture of television adjust counters and monitors precisely.

If the invention is also with reference to a particular Embodiment shown and described is for the art it is clear that various detail modifications can be carried out nen without departing from the spirit and scope of the invention. For the case the video camera can play through a CCD (charge coupled device) Image sensor to be replaced.

In addition, the embodiment in this application describes only the application for a video signal. However, the sound signal can also can be controlled automatically by the video camera through a micro phon and the first to third ADCs through a single ADC to um convert the analog signal picked up by the microphone into a digital signal to be replaced. Of course, in this case the RGB Ma trix fall away.

Claims (4)

1. An apparatus for controlling an image pattern in a computer-controlled television set (CCTV) with a deflection circuit comprising:
a pattern generator for generating an image pattern with a synchronous signal for the CCTV;
means for picking up the pattern and converting the pattern into a composite electrical video signal;
a device operatively connected to the image sensor device for separating the composite video signals into red, green and blue components;
first, second and third devices for converting the red, green and blue components into red, green and blue digital signals, respectively;
a device operatively connected to the pattern generator for providing the synchronous signal generated by the pattern generator, the synchronous signal being connected to the first, second and third conversion devices, respectively, whereby the first, second and third conversion devices are synchronized with the pattern generator;
a pattern recognizer for comparing the output of the first, second and third conversion devices with a reference previously programmed to control the CCTV and for generating parameters for the horizontal, vertical and matching characteristics, respectively, according to the comparison results; and
a control computer for comparing the parameters for each of the horizontal, vertical and alignment characteristics with a reference parameter, thereby generating control data according to the comparison result, the control data being supplied to the CCTV to compensate for distortion of the image pattern. 2. Device for controlling an image pattern of a CCTV according to An claim 1, wherein the device also an operative between the CCTV and the control computer connected interface to the order convert the control data output by the computer into for the Control of the CCTV includes appropriate data. 3. Device for controlling an image pattern of a CCTV according to An saying 1, wherein the recording device is either a video camera CCD image sensor or an LED light sensor. 4. Device for controlling an image pattern of a CCTV according to An saying 1, wherein the first, second and third transducer devices each is an analog / digital converter.